The Coordinated Theoretical-Experimental Project on QCD

CTEQ is a multi-institutional collaboration devoted to a broad program
of research projects and cooperative enterprises in high-energy
physics centered on Quantum Chromodynamics (QCD) and its implications in all
areas of the Standard Model and beyond.

A wide range of research projects to
advance the quantitative predictions of Quantum Chromodynamics,
emphasizing collaboration between theorists and experimentalists;

An annual CTEQ Summer School on QCD
Analysis and Phenomenology to promote the understanding of QCD and
its proper use among young physicists, especially experimentalists;

An on-going comprehensive global QCD analysis project to test the
accuracy of QCD and to extract the universal parton
distribution functions needed in calculations of all high
energy physics processes;

We are pleased to announce the establishment of the Wu-Ki Tung Award
for Early-Career Research on QCD. The Wu-Ki Tung award is to
recognize outstanding contributions made by early-career physicists on
experimental or theoretical research on Quantum Chromodynamics. The
award will be given annually and will consist of a certificate citing
the contributions of the recipient and support for travel to a CTEQ
Summer School to deliver an invited lecture. Nominees must have
received a Ph.D. in experimental or theoretical particle physics
within the last seven years, excluding any career breaks, by the time
of nomination.
Instructions to donate to Tung Fellowship Award Fund via MSU

CTEQ PDFs

ManeParse version 1.0
ManeParse is a modular Mathematica package that provides access to
PDFs for hadronic calculations. It allows for parsing of .pds and
LHAPDF6 files and estimates PDF errors for Hessian and MC releases.

POMPYT-C
is an event generator for diffractive hard scattering that
can use parton densities in the pomeron generated by DGLAP
evolution from user-defined inital conditions. It is a
combination of the POMPYT event generator and the CTEQ
evolution package. POMPYT-C was developed by
John Collins and Lyndon Alvero.